freebsd-nq/usr.sbin/ctm/ctm_smail/ctm_smail.c
1999-08-28 01:35:59 +00:00

470 lines
11 KiB
C

/*
* Send a compressed CTM delta to a recipient mailing list by encoding it
* in safe ASCII characters, in mailer-friendly chunks, and passing them
* to sendmail. Optionally, the chunks can be queued to be sent later by
* ctm_dequeue in controlled bursts. The encoding is almost the same as
* MIME BASE64, and is protected by a simple checksum.
*
* Author: Stephen McKay
*
* NOTICE: This is free software. I hope you get some use from this program.
* In return you should think about all the nice people who give away software.
* Maybe you should write some free software too.
*
* $FreeBSD$
*/
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <unistd.h>
#include <fcntl.h>
#include <sys/types.h>
#include <sys/stat.h>
#include <errno.h>
#include <paths.h>
#include <limits.h>
#include "error.h"
#include "options.h"
#define DEF_MAX_MSG 64000 /* Default maximum mail msg minus headers. */
#define LINE_LENGTH 76 /* Chars per encoded line. Divisible by 4. */
int chop_and_send_or_queue(FILE *dfp, char *delta, off_t ctm_size,
long max_msg_size, char *mail_alias, char *queue_dir);
int chop_and_send(FILE *dfp, char *delta, long msg_size, int npieces,
char *mail_alias);
int chop_and_queue(FILE *dfp, char *delta, long msg_size, int npieces,
char *mail_alias, char *queue_dir);
void clean_up_queue(char *queue_dir);
int encode_body(FILE *sm_fp, FILE *delta_fp, long msg_size, unsigned *sum);
void write_header(FILE *sfp, char *mail_alias, char *delta, int pce,
int npieces);
void write_trailer(FILE *sfp, unsigned sum);
int apologise(char *delta, off_t ctm_size, long max_ctm_size,
char *mail_alias);
FILE *open_sendmail(void);
int close_sendmail(FILE *fp);
int
main(int argc, char **argv)
{
int status = 0;
char *delta_file;
char *mail_alias;
long max_msg_size = DEF_MAX_MSG;
long max_ctm_size = 0;
char *log_file = NULL;
char *queue_dir = NULL;
char *delta;
FILE *dfp;
struct stat sb;
err_prog_name(argv[0]);
OPTIONS("[-l log] [-m maxmsgsize] [-c maxctmsize] [-q queuedir] ctm-delta mail-alias")
NUMBER('m', max_msg_size)
NUMBER('c', max_ctm_size)
STRING('l', log_file)
STRING('q', queue_dir)
ENDOPTS
if (argc != 3)
usage();
if (log_file != NULL)
err_set_log(log_file);
delta_file = argv[1];
mail_alias = argv[2];
if ((delta = strrchr(delta_file, '/')) == NULL)
delta = delta_file;
else
delta++;
if ((dfp = fopen(delta_file, "r")) == NULL || fstat(fileno(dfp), &sb) < 0)
{
err("*%s", delta_file);
exit(1);
}
if (max_ctm_size != 0 && sb.st_size > max_ctm_size)
status = apologise(delta, sb.st_size, max_ctm_size, mail_alias);
else
status = chop_and_send_or_queue(dfp, delta, sb.st_size, max_msg_size,
mail_alias, queue_dir);
fclose(dfp);
return status;
}
/*
* Carve our CTM delta into pieces, encode them, and send or queue them.
* Returns 0 on success, and 1 on failure.
*/
int
chop_and_send_or_queue(FILE *dfp, char *delta, off_t ctm_size,
long max_msg_size, char *mail_alias, char *queue_dir)
{
int npieces;
long msg_size;
long exp_size;
int status;
#undef howmany
#define howmany(x,y) (((x)+((y)-1)) / (y))
/*
* Work out how many pieces we need, bearing in mind that each piece
* grows by 4/3 when encoded. We count the newlines too, but ignore
* all mail headers and piece headers. They are a "small" (almost
* constant) per message overhead that we make the user worry about. :-)
*/
exp_size = ctm_size * 4 / 3;
exp_size += howmany(exp_size, LINE_LENGTH);
npieces = howmany(exp_size, max_msg_size);
msg_size = howmany(ctm_size, npieces);
#undef howmany
if (queue_dir == NULL)
status = chop_and_send(dfp, delta, msg_size, npieces, mail_alias);
else
{
status = chop_and_queue(dfp, delta, msg_size, npieces, mail_alias,
queue_dir);
if (status)
clean_up_queue(queue_dir);
}
return status;
}
/*
* Carve our CTM delta into pieces, encode them, and send them.
* Returns 0 on success, and 1 on failure.
*/
int
chop_and_send(FILE *dfp, char *delta, long msg_size, int npieces,
char *mail_alias)
{
int pce;
FILE *sfp;
unsigned sum;
/*
* Send each chunk directly to sendmail as it is generated.
* No temporary files necessary. If things turn ugly, we just
* have to live with the fact the we have sent only part of
* the delta.
*/
for (pce = 1; pce <= npieces; pce++)
{
int read_error;
if ((sfp = open_sendmail()) == NULL)
return 1;
write_header(sfp, mail_alias, delta, pce, npieces);
read_error = encode_body(sfp, dfp, msg_size, &sum);
if (!read_error)
write_trailer(sfp, sum);
if (!close_sendmail(sfp) || read_error)
return 1;
err("%s %d/%d sent to %s", delta, pce, npieces, mail_alias);
}
return 0;
}
/*
* Construct the tmp queue file name of a delta piece.
*/
#define mk_tmp_name(fn,qd,p) \
sprintf((fn), "%s/.%08ld.%03d", (qd), (long)getpid(), (p))
/*
* Construct the final queue file name of a delta piece.
*/
#define mk_queue_name(fn,qd,d,p,n) \
sprintf((fn), "%s/%s+%03d-%03d", (qd), (d), (p), (n))
/*
* Carve our CTM delta into pieces, encode them, and queue them.
* Returns 0 on success, and 1 on failure.
*/
int
chop_and_queue(FILE *dfp, char *delta, long msg_size, int npieces,
char *mail_alias, char *queue_dir)
{
int pce;
FILE *qfp;
unsigned sum;
char tname[PATH_MAX];
char qname[PATH_MAX];
/*
* Store each piece in the queue directory, but under temporary names,
* so that they can be deleted without unpleasant consequences if
* anything goes wrong. We could easily fill up a disk, for example.
*/
for (pce = 1; pce <= npieces; pce++)
{
int write_error;
mk_tmp_name(tname, queue_dir, pce);
if ((qfp = fopen(tname, "w")) == NULL)
{
err("cannot open '%s' for writing", tname);
return 1;
}
write_header(qfp, mail_alias, delta, pce, npieces);
if (encode_body(qfp, dfp, msg_size, &sum))
return 1;
write_trailer(qfp, sum);
fflush(qfp);
write_error = ferror(qfp);
fclose(qfp);
if (write_error)
{
err("error writing '%s'", tname);
return 1;
}
/*
* Give the warm success message now, instead of all in a rush
* during the rename phase.
*/
err("%s %d/%d queued for %s", delta, pce, npieces, mail_alias);
}
/*
* Rename the pieces into place. If an error occurs now, we are
* stuffed, but there is no neat way to back out. rename() should
* only fail now under extreme circumstances.
*/
for (pce = 1; pce <= npieces; pce++)
{
mk_tmp_name(tname, queue_dir, pce);
mk_queue_name(qname, queue_dir, delta, pce, npieces);
if (rename(tname, qname) < 0)
{
err("*rename: '%s' to '%s'", tname, qname);
unlink(tname);
}
}
return 0;
}
/*
* There may be temporary files cluttering up the queue directory.
*/
void
clean_up_queue(char *queue_dir)
{
int pce;
char tname[PATH_MAX];
err("discarding queued delta pieces");
for (pce = 1; ; pce++)
{
mk_tmp_name(tname, queue_dir, pce);
if (unlink(tname) < 0)
break;
}
}
/*
* MIME BASE64 encode table.
*/
static char to_b64[0x40] =
"ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789+/";
/*
* This cheap plastic checksum effectively rotates our checksum-so-far
* left one, then adds the character. We only want 16 bits of it, and
* don't care what happens to the rest. It ain't much, but it's small.
*/
#define add_ck(sum,x) \
((sum) += ((x)&0xff) + (sum) + (((sum)&0x8000) ? 1 : 0))
/*
* Encode the body. Use an encoding almost the same as MIME BASE64.
*
* Characters are read from delta_fp and encoded characters are written
* to sm_fp. At most 'msg_size' characters should be read from delta_fp.
*
* The body consists of lines of up to LINE_LENGTH characters. Each group
* of 4 characters encodes 3 input characters. Each output character encodes
* 6 bits. Thus 64 different characters are needed in this representation.
*/
int
encode_body(FILE *sm_fp, FILE *delta_fp, long msg_size, unsigned *sum)
{
unsigned short cksum = 0xffff;
unsigned char *ip;
char *op;
int want, n, i;
unsigned char inbuf[LINE_LENGTH*3/4];
char outbuf[LINE_LENGTH+1];
/*
* Round up to the nearest line boundary, for the tiniest of gains,
* and lots of neatness. :-)
*/
msg_size += (LINE_LENGTH*3/4) - 1;
msg_size -= msg_size % (LINE_LENGTH*3/4);
while (msg_size > 0)
{
want = (msg_size < sizeof(inbuf)) ? msg_size : sizeof(inbuf);
if ((n = fread(inbuf, sizeof(char), want, delta_fp)) == 0)
break;
msg_size -= n;
for (i = 0; i < n; i++)
add_ck(cksum, inbuf[i]);
/*
* Produce a line of encoded data. Every line length will be a
* multiple of 4, except for, perhaps, the last line.
*/
ip = inbuf;
op = outbuf;
while (n >= 3)
{
*op++ = to_b64[ip[0] >> 2];
*op++ = to_b64[(ip[0] << 4 & 0x3f) | ip[1] >> 4];
*op++ = to_b64[(ip[1] << 2 & 0x3f) | ip[2] >> 6];
*op++ = to_b64[ip[2] & 0x3f];
ip += 3;
n -= 3;
}
if (n > 0)
{
*op++ = to_b64[ip[0] >> 2];
*op++ = to_b64[(ip[0] << 4 & 0x3f) | ip[1] >> 4];
if (n >= 2)
*op++ = to_b64[ip[1] << 2 & 0x3f];
}
*op++ = '\n';
fwrite(outbuf, sizeof(char), op - outbuf, sm_fp);
}
if (ferror(delta_fp))
{
err("error reading input file.");
return 1;
}
*sum = cksum;
return 0;
}
/*
* Write the mail header and data header.
*/
void
write_header(FILE *sfp, char *mail_alias, char *delta, int pce, int npieces)
{
fprintf(sfp, "From: owner-%s\n", mail_alias);
fprintf(sfp, "To: %s\n", mail_alias);
fprintf(sfp, "Subject: ctm-mail %s %d/%d\n\n", delta, pce, npieces);
fprintf(sfp, "CTM_MAIL BEGIN %s %d %d\n", delta, pce, npieces);
}
/*
* Write the data trailer.
*/
void
write_trailer(FILE *sfp, unsigned sum)
{
fprintf(sfp, "CTM_MAIL END %ld\n", (long)sum);
}
/*
* We're terribly sorry, but the delta is too big to send.
* Returns 0 on success, 1 on failure.
*/
int
apologise(char *delta, off_t ctm_size, long max_ctm_size, char *mail_alias)
{
FILE *sfp;
sfp = open_sendmail();
if (sfp == NULL)
return 1;
fprintf(sfp, "From: owner-%s\n", mail_alias);
fprintf(sfp, "To: %s\n", mail_alias);
fprintf(sfp, "Subject: ctm-notice %s\n\n", delta);
fprintf(sfp, "%s is %ld bytes. The limit is %ld bytes.\n\n", delta,
(long)ctm_size, max_ctm_size);
fprintf(sfp, "You can retrieve this delta via ftpmail, "
"or your good mate at the university.\n");
if (!close_sendmail(sfp))
return 1;
return 0;
}
/*
* Start a pipe to sendmail. Sendmail will decode the destination
* from the message contents.
*/
FILE *
open_sendmail()
{
FILE *fp;
char buf[100];
sprintf(buf, "%s -odq -t", _PATH_SENDMAIL);
if ((fp = popen(buf, "w")) == NULL)
err("cannot start sendmail");
return fp;
}
/*
* Close a pipe to sendmail. Sendmail will then do its bit.
* Return 1 on success, 0 on failure.
*/
int
close_sendmail(FILE *fp)
{
int status;
fflush(fp);
if (ferror(fp))
{
err("error writing to sendmail");
return 0;
}
if ((status = pclose(fp)) != 0)
err("sendmail failed with status %d", status);
return (status == 0);
}